Highly Anisotropic Gap Function in Borocarbide Superconductor LuNi_2B_2C

Astronomy; C. Lupien; Cyril Proust; Department of Physics; Etienne Boaknin; Iowa State University); Louis Taillefer (Canadian Institute for Advanced Research; P. C. Canfield (Ames Laboratory; R.W. Hill; U. of Toronto)

arxiv: cond-mat/0108409 · v2 · submitted 2001-08-25 · ❄️ cond-mat.supr-con

Highly Anisotropic Gap Function in Borocarbide Superconductor LuNi₂B₂C

Etienne Boaknin , R.W. Hill , Cyril Proust , C. Lupien , Louis Taillefer (Canadian Institute for Advanced Research , U. of Toronto) , P. C. Canfield (Ames Laboratory , Department of Physics

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Astronomy Iowa State University)

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classification ❄️ cond-mat.supr-con

keywords lunisuperconductoranisotropicborocarbidedependencefieldfunctionhighly

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The thermal conductivity of borocarbide superconductor LuNi_2B_2C was measured down to 70 mK (T_c/200) in a magnetic field perpendicular to the heat current from H = 0 to above H_c2 = 7 T. As soon as vortices enter the sample, the conduction at T -> 0 grows rapidly, showing unambiguously that delocalized quasiparticles are present at the lowest energies. The field dependence is very similar to that of UPt_3, a heavy-fermion superconductor with a line of nodes in the gap, and very different from the exponential dependence characteristic of s-wave superconductors. This is strong evidence for a highly anisotropic gap function in LuNi_2B_2C, possibly with nodes.

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Highly Anisotropic Gap Function in Borocarbide Superconductor LuNi₂B₂C

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